[Bucketing] Improve error bucketing by using constant propagation when detecting direct null assignments.

10 years ago · 6bde9bda88
parent 1356fd331f
commit 6bde9bda88
12 changed files with 194 additions and 163 deletions
--- a/infer/src/backend/buckets.ml
+++ b/infer/src/backend/buckets.ml
@ -61,9 +61,17 @@ let check_access access_opt de_opt =
      !formal_ids in
    let formal_param_used_in_call = ref false in
    let has_call_or_sets_null node =
-      let rec exp_is_null = function
+      let rec exp_is_null exp = match exp with
        | Sil.Const (Sil.Cint n) -> Sil.Int.iszero n
        | Sil.Cast (_, e) -> exp_is_null e
+        | Sil.Var _
+        | Sil.Lvar _ ->
+            begin
+              match State.get_const_map () node exp with
+              | Some (Sil.Cint n) ->
+                  Sil.Int.iszero n
+              | _ -> false
+            end
        | _ -> false in
      let filter = function
        | Sil.Call (_, _, etl, _, _) ->
@ -73,7 +81,8 @@ let check_access access_opt de_opt =
              | _ -> false in
            if list_exists arg_is_formal_param etl then formal_param_used_in_call := true;
            true
-        | Sil.Set (_, _, e, _) -> exp_is_null e
+        | Sil.Set (_, _, e, _) ->
+            exp_is_null e
        | _ -> false in
      list_exists filter (Cfg.Node.get_instrs node) in
    let local_access_found = ref false in
--- a/infer/src/backend/interproc.ml
+++ b/infer/src/backend/interproc.ml
@ -467,11 +467,12 @@ let check_assignement_guard node =
 (** Perform symbolic execution for a node starting from an initial prop *)
 let do_symbolic_execution handle_exn cfg tenv
    (node : Cfg.node) (prop: Prop.normal Prop.t) (path : Paths.Path.t) =
+  let pdesc = Cfg.Node.get_proc_desc node in
  State.mark_execution_start node;
+  State.set_const_map (ConstantPropagation.build_const_map pdesc); (* build the const map lazily *)
  check_assignement_guard node;
  let instrs = Cfg.Node.get_instrs node in
  Ident.update_name_generator (instrs_get_normal_vars instrs); (* fresh normal vars must be fresh w.r.t. instructions *)
-  let pdesc = Cfg.Node.get_proc_desc node in
  let pset =
    SymExec.lifted_sym_exec handle_exn cfg tenv pdesc
      (Paths.PathSet.from_renamed_list [(prop, path)]) node instrs in
@ -698,7 +699,7 @@ let collect_postconditions tenv pdesc : Paths.PathSet.t * Specs.Visitedset.t =
 let create_seed_vars sigma =
  let hpred_add_seed sigma = function
    | Sil.Hpointsto (Sil.Lvar pv, se, typ) when not (Sil.pvar_is_abducted pv) ->
-      Sil.Hpointsto(Sil.Lvar (Sil.pvar_to_seed pv), se, typ) :: sigma
+        Sil.Hpointsto(Sil.Lvar (Sil.pvar_to_seed pv), se, typ) :: sigma
    | _ -> sigma in
  list_fold_left hpred_add_seed [] sigma

--- a/infer/src/backend/prop.ml
+++ b/infer/src/backend/prop.ml
@ -2772,23 +2772,19 @@ end = struct

  let pi_size pi = pi_weight * list_length pi

-  module ExpMap =
-    Map.Make (struct
-      type t = Sil.exp
-      let compare = Sil.exp_compare end)

  (** Approximate the size of the longest chain by counting the max
  number of |-> with the same type and whose lhs is primed or
  footprint *)
  let sigma_chain_size sigma =
-    let tbl = ref ExpMap.empty in
+    let tbl = ref Sil.ExpMap.empty in
    let add t =
      try
-        let count = ExpMap.find t !tbl in
-        tbl := ExpMap.add t (count + 1) !tbl
+        let count = Sil.ExpMap.find t !tbl in
+        tbl := Sil.ExpMap.add t (count + 1) !tbl
      with
      | Not_found ->
-          tbl := ExpMap.add t 1 !tbl in
+          tbl := Sil.ExpMap.add t 1 !tbl in
    let process_hpred = function
      | Sil.Hpointsto (e, _, te) ->
          (match e with
@ -2797,7 +2793,7 @@ end = struct
      | Sil.Hlseg _ | Sil.Hdllseg _ -> () in
    list_iter process_hpred sigma;
    let size = ref 0 in
-    ExpMap.iter (fun t n -> size := max n !size) !tbl;
+    Sil.ExpMap.iter (fun t n -> size := max n !size) !tbl;
    !size

  (** Compute a size value for the prop, which indicates its
--- a/infer/src/backend/prover.ml
+++ b/infer/src/backend/prover.ml
@ -233,11 +233,6 @@ module Inequalities : sig
  val d_neqs : t -> unit
 end = struct

-  module ExpMap =
-    Map.Make (struct
-      type t = Sil.exp
-      let compare = Sil.exp_compare end)
-
  type t = {
    mutable leqs: (Sil.exp * Sil.exp) list; (** le fasts [e1 <= e2] *)
    mutable lts: (Sil.exp * Sil.exp) list; (** lt facts [e1 < e2] *)
@ -281,14 +276,14 @@ end = struct
    else begin
      let umap_add umap e new_upper =
        try
-          let old_upper = ExpMap.find e umap in
-          if Sil.Int.leq old_upper new_upper then umap else ExpMap.add e new_upper umap
-        with Not_found -> ExpMap.add e new_upper umap in
+          let old_upper = Sil.ExpMap.find e umap in
+          if Sil.Int.leq old_upper new_upper then umap else Sil.ExpMap.add e new_upper umap
+        with Not_found -> Sil.ExpMap.add e new_upper umap in
      let lmap_add lmap e new_lower =
        try
-          let old_lower = ExpMap.find e lmap in
-          if Sil.Int.geq old_lower new_lower then lmap else ExpMap.add e new_lower lmap
-        with Not_found -> ExpMap.add e new_lower lmap in
+          let old_lower = Sil.ExpMap.find e lmap in
+          if Sil.Int.geq old_lower new_lower then lmap else Sil.ExpMap.add e new_lower lmap
+        with Not_found -> Sil.ExpMap.add e new_lower lmap in
      let rec umap_create_from_leqs umap = function
        | [] -> umap
        | (e1, Sil.Const (Sil.Cint upper1)):: leqs_rest ->
@ -306,7 +301,7 @@ end = struct
        | constr:: constrs_rest ->
            try
              let e1, e2, n = DiffConstr.to_triple constr (* e1 - e2 <= n *) in
-              let upper2 = ExpMap.find e2 umap in
+              let upper2 = Sil.ExpMap.find e2 umap in
              let new_upper1 = upper2 ++ n in
              let new_umap = umap_add umap e1 new_upper1 in
              umap_improve_by_difference_constraints new_umap constrs_rest
@ -317,22 +312,26 @@ end = struct
        | constr:: constrs_rest -> (* e2 - e1 > -n-1 *)
            try
              let e1, e2, n = DiffConstr.to_triple constr (* e2 - e1 > -n-1 *) in
-              let lower1 = ExpMap.find e1 lmap in
+              let lower1 = Sil.ExpMap.find e1 lmap in
              let new_lower2 = lower1 -- n -- Sil.Int.one in
              let new_lmap = lmap_add lmap e2 new_lower2 in
              lmap_improve_by_difference_constraints new_lmap constrs_rest
            with Not_found ->
                lmap_improve_by_difference_constraints lmap constrs_rest in
      let leqs_res =
-        let umap = umap_create_from_leqs ExpMap.empty leqs in
+        let umap = umap_create_from_leqs Sil.ExpMap.empty leqs in
        let umap' = umap_improve_by_difference_constraints umap diff_constraints2 in
-        let leqs' = ExpMap.fold (fun e upper acc_leqs -> (e, Sil.exp_int upper):: acc_leqs) umap' [] in
+        let leqs' = Sil.ExpMap.fold
+            (fun e upper acc_leqs -> (e, Sil.exp_int upper):: acc_leqs)
+            umap' [] in
        let leqs'' = (list_map DiffConstr.to_leq diff_constraints2) @ leqs' in
        leqs_sort_then_remove_redundancy leqs'' in
      let lts_res =
-        let lmap = lmap_create_from_lts ExpMap.empty lts in
+        let lmap = lmap_create_from_lts Sil.ExpMap.empty lts in
        let lmap' = lmap_improve_by_difference_constraints lmap diff_constraints2 in
-        let lts' = ExpMap.fold (fun e lower acc_lts -> (Sil.exp_int lower, e):: acc_lts) lmap' [] in
+        let lts' = Sil.ExpMap.fold
+            (fun e lower acc_lts -> (Sil.exp_int lower, e):: acc_lts)
+            lmap' [] in
        let lts'' = (list_map DiffConstr.to_lt diff_constraints2) @ lts' in
        lts_sort_then_remove_redundancy lts'' in
      { leqs = leqs_res; lts = lts_res; neqs = neqs }
--- a/infer/src/backend/sil.ml
+++ b/infer/src/backend/sil.ml
@ -1658,6 +1658,12 @@ module ExpSet = Set.Make
    let compare = exp_compare
  end)

+module ExpMap = Map.Make(struct
+    type t = exp
+    let compare = exp_compare
+  end)
+
+
 let elist_to_eset es =
  list_fold_left (fun set e -> ExpSet.add e set) ExpSet.empty es

--- a/infer/src/backend/sil.mli
+++ b/infer/src/backend/sil.mli
@ -349,6 +349,9 @@ module TypMap : Map.S with type key = typ
 (** Sets of expressions. *)
 module ExpSet : Set.S with type elt = exp

+(** Maps with expression keys. *)
+module ExpMap : Map.S with type key = exp
+
 (** Hashtable with expressions as keys. *)
 module ExpHash : Hashtbl.S with type key = exp

--- a/infer/src/backend/state.ml
+++ b/infer/src/backend/state.ml
@ -10,6 +10,12 @@ module L = Logging
 module F = Format
 open Utils

+type const_map = Cfg.Node.t -> Sil.exp -> Sil.const option
+
+(** Constant map for the procedure *)
+let const_map : const_map ref =
+  ref (fun node exp -> None)
+
 (** Diverging states since the last reset for the node *)
 let diverging_states_node = ref Paths.PathSet.empty

@ -318,3 +324,9 @@ let set_node (node: Cfg.node) =

 let set_session (session: int) =
  last_session := session
+
+let get_const_map () =
+  !const_map
+
+let set_const_map const_map' =
+  const_map := const_map'
--- a/infer/src/backend/state.mli
+++ b/infer/src/backend/state.mli
@ -11,6 +11,11 @@ open Utils
 (** Add diverging states *)
 val add_diverging_states : Paths.PathSet.t -> unit

+type const_map = Cfg.Node.t -> Sil.exp -> Sil.const option
+
+(** Get the constant map for the current procedure. *)
+val get_const_map : unit -> const_map
+
 (** Get the diverging states for the node *)
 val get_diverging_states_node : unit -> Paths.PathSet.t

@ -93,6 +98,9 @@ val reset : unit -> unit
 (** Reset the diverging states and goto information for the node *)
 val reset_diverging_states_goto_node : unit -> unit

+(** Set the constant map for the current procedure. *)
+val set_const_map : const_map -> unit
+
 (** Set the node target of a Sil.Goto_node instruction *)
 val set_goto_node : int -> unit

--- a/infer/src/backend/symExec.ml
+++ b/infer/src/backend/symExec.ml
@ -939,7 +939,7 @@ let rec sym_exec cfg tenv pdesc _instr (_prop: Prop.normal Prop.t) path
      let sym_exe_builtin = Builtin.get_sym_exe_builtin fn in
      sym_exe_builtin cfg pdesc instr tenv _prop path ret_ids args fn loc
  | Sil.Call (ret_ids, Sil.Const (Sil.Cfun callee_pname), actual_param, loc, call_flags) ->
-     (** Generic fun call with known name *)
+  (** Generic fun call with known name *)
      let (prop_r, _n_actual_params) = normalize_params pdesc _prop actual_param in
      let fn, n_actual_params = handle_special_cases_call tenv cfg callee_pname _n_actual_params in
      let resolved_pname =
@ -955,13 +955,13 @@ let rec sym_exec cfg tenv pdesc _instr (_prop: Prop.normal Prop.t) path
        Reporting.log_info pname exn;
        L.d_strln
          ("Undefined function " ^ Procname.to_string callee_pname
-           ^ ", returning undefined value.");
+            ^ ", returning undefined value.");
        (match Specs.get_summary pname with
-         | None -> ()
-         | Some summary ->
-            Specs.CallStats.trace
-              summary.Specs.stats.Specs.call_stats callee_pname loc
-              (Specs.CallStats.CR_skip) !Config.footprint);
+          | None -> ()
+          | Some summary ->
+              Specs.CallStats.trace
+                summary.Specs.stats.Specs.call_stats callee_pname loc
+                (Specs.CallStats.CR_skip) !Config.footprint);
        call_unknown_or_scan
          false cfg pdesc tenv prop_r path
          ret_ids ret_typ_opt n_actual_params resolved_pname loc in
@ -969,10 +969,10 @@ let rec sym_exec cfg tenv pdesc _instr (_prop: Prop.normal Prop.t) path
        match Specs.get_summary resolved_pname with
        | None -> skip_call ()
        | Some summary when call_should_be_skipped resolved_pname summary ->
-           skip_call ()
+            skip_call ()
        | Some summary ->
-           sym_exec_call
-             cfg pdesc tenv prop_r path ret_ids n_actual_params summary loc
+            sym_exec_call
+              cfg pdesc tenv prop_r path ret_ids n_actual_params summary loc
      end
  | Sil.Call (ret_ids, fun_exp, actual_params, loc, call_flags) -> (** Call via function pointer *)
      let (prop_r, n_actual_params) = normalize_params pdesc _prop actual_params in
@ -1192,7 +1192,7 @@ and call_unknown_or_scan is_scan cfg pdesc tenv pre path
    let do_exp p (e, t) =
      let do_attribute q = function
        | Sil.Aresource res_action as res
-             when res_action.Sil.ra_res = Sil.Rfile ->
+        when res_action.Sil.ra_res = Sil.Rfile ->
            Prop.remove_attribute res q
        | _ -> q in
      list_fold_left do_attribute p (Prop.get_exp_attributes p e) in
@ -1229,26 +1229,26 @@ and sym_exe_check_variadic_sentinel cfg pdesc tenv prop path actual_params fails
  (* sentinels start counting from the last argument to the function *)
  let n = nargs - sentinel - 1 in
  let build_argsi (acc, i) a =
-    if i = n then (acc, i+1)
-    else ((a,i)::acc, i+1) in
+    if i = n then (acc, i +1)
+    else ((a, i):: acc, i +1) in
  (* list_fold_left reverses the arguments *)
  let non_terminal_actuals_i = fst (list_fold_left build_argsi ([], 0) args) in
  let check_allocated result ((lexp, typ), i) =
-  (* simulate a Letderef for [lexp] *)
+    (* simulate a Letderef for [lexp] *)
    let tmp_id_deref = Ident.create_fresh Ident.kprimed in
    let letderef = Sil.Letderef (tmp_id_deref, lexp, typ, loc) in
    try
      sym_exec_generated false cfg tenv pdesc [letderef] result
    with e when exn_not_timeout e ->
-      if not fails_on_nil then
-        let deref_str = Localise.deref_str_nil_argument_in_variadic_method pname nargs i in
-        let err_desc =
-          Errdesc.explain_dereference ~use_buckets: true ~is_premature_nil: true
-            deref_str prop loc in
-        raise (Exceptions.Premature_nil_termination
-                 (err_desc, try assert false with Assert_failure x -> x))
-      else
-        raise e in
+        if not fails_on_nil then
+          let deref_str = Localise.deref_str_nil_argument_in_variadic_method pname nargs i in
+          let err_desc =
+            Errdesc.explain_dereference ~use_buckets: true ~is_premature_nil: true
+              deref_str prop loc in
+          raise (Exceptions.Premature_nil_termination
+              (err_desc, try assert false with Assert_failure x -> x))
+        else
+          raise e in
  (* list_fold_left reverses the arguments back so that we report an *)
  (* error on the first premature nil argument *)
  list_fold_left check_allocated [(prop, path)] non_terminal_actuals_i
@ -1374,7 +1374,7 @@ and sym_exec_wrapper handle_exn cfg tenv pdesc instr ((prop: Prop.normal Prop.t)

 let lifted_sym_exec
    handle_exn cfg tenv pdesc (pset : Paths.PathSet.t) node (instrs : Sil.instr list)
-    : Paths.PathSet.t =
+: Paths.PathSet.t =
  let pname = Cfg.Procdesc.get_proc_name pdesc in
  let exe_instr_prop instr p tr (pset1: Paths.PathSet.t) =
    let pset2 =
@ -2088,8 +2088,8 @@ module ModelBuiltins = struct
                match Specs.get_summary (Procname.from_string fun_string) with
                | None -> assert false
                | Some callee_summary ->
-                   sym_exec_call
-                     cfg pdesc tenv prop path ret_ids [(routine_arg, snd arg)] callee_summary loc
+                    sym_exec_call
+                      cfg pdesc tenv prop path ret_ids [(routine_arg, snd arg)] callee_summary loc
              end
          | _ ->
              L.d_str "pthread_create: unknown function "; Sil.d_exp routine_name; L.d_strln ", skipping call.";
--- a/infer/src/checkers/constantPropagation.ml
+++ b/infer/src/checkers/constantPropagation.ml
@ -8,10 +8,6 @@ module L = Logging

 type t

-module ConstantMap = Map.Make(struct
-  type t = string
-  let compare = string_compare
-end)

 let string_widening_limit = 1000
 let verbose = false
@ -24,85 +20,81 @@ let merge_values key c1_opt c2_opt =
  | None, Some c -> Some c
  | _ -> Some None

+module ConstantMap = Sil.ExpMap
+
 (** Dataflow struct *)
 module ConstantFlow = Dataflow.MakeDF(struct
-  type t = (Sil.const option) ConstantMap.t
-
-  let pp fmt constants =
-    let print_kv k = function
-      | Some v -> Format.fprintf fmt "  %s -> %a@." k (Sil.pp_const pe_text) v
-      | _ -> Format.fprintf fmt "  %s -> None@." k in
-    Format.fprintf fmt "[@.";
-    ConstantMap.iter print_kv constants;
-    Format.fprintf fmt "]@."
-
-  (* Item-wise equality where values are equal iff
+    type t = (Sil.const option) ConstantMap.t
+
+    let pp fmt constants =
+      let pp_key fmt = Sil.pp_exp pe_text fmt in
+      let print_kv k = function
+        | Some v -> Format.fprintf fmt "  %a -> %a@." pp_key k (Sil.pp_const pe_text) v
+        | _ -> Format.fprintf fmt "  %a -> None@." pp_key k in
+      Format.fprintf fmt "[@.";
+      ConstantMap.iter print_kv constants;
+      Format.fprintf fmt "]@."
+
+    (* Item - wise equality where values are equal iff
    - both are None
    - both are a constant and equal wrt. Sil.const_equal *)
-  let equal m n = ConstantMap.equal (opt_equal Sil.const_equal) m n
-
-  let join = ConstantMap.merge merge_values
-
-  let proc_throws pn = Dataflow.DontKnow
-
-  let do_node node constants =
-
-    let do_instr constants instr =
-      try
-        let update key value constants =
-          ConstantMap.merge
-            merge_values
-            constants
-            (ConstantMap.add key value ConstantMap.empty) in
-
-        match instr with
-        | Sil.Letderef (i, Sil.Lvar p, _, _) ->        (* tmp = var *)
-            let lvar = Ident.to_string i in
-            let rvar = Sil.pvar_to_string p in
-            update lvar (ConstantMap.find rvar constants) constants
-
-        | Sil.Set (Sil.Lvar p, _, Sil.Const c, _) ->   (* var = const *)
-            update (Sil.pvar_to_string p) (Some c) constants
-
-        | Sil.Set (Sil.Lvar p, _, Sil.Var i, _) ->     (* var = tmp *)
-            let lvar = Sil.pvar_to_string p in
-            let rvar = Ident.to_string i in
-            update lvar (ConstantMap.find rvar constants) constants
-
-        (* Handle propagation of string with StringBuilder. Does not handle null case *)
-        | Sil.Call (_, Sil.Const (Sil.Cfun pn), (Sil.Var sb, _):: [], _, _)
-        when Procname.java_get_class pn = "java.lang.StringBuilder"
-        && Procname.java_get_method pn = "<init>" ->  (* StringBuilder.<init> *)
-            update (Ident.to_string sb) (Some (Sil.Cstr "")) constants
-
-        | Sil.Call (i:: [], Sil.Const (Sil.Cfun pn), (Sil.Var i1, _):: [], _, _)
-        when Procname.java_get_class pn = "java.lang.StringBuilder"
-        && Procname.java_get_method pn = "toString" -> (* StringBuilder.toString *)
-            let lvar = Ident.to_string i in
-            let rvar = Ident.to_string i1 in
-            update lvar (ConstantMap.find rvar constants) constants
-
-        | Sil.Call (i:: [], Sil.Const (Sil.Cfun pn), (Sil.Var i1, _):: (Sil.Var i2, _):: [], _, _)
-        when Procname.java_get_class pn = "java.lang.StringBuilder"
-        && Procname.java_get_method pn = "append" -> (* StringBuilder.append *)
-            let lvar = Ident.to_string i in
-            let rvar1 = Ident.to_string i1 in
-            let rvar2 = Ident.to_string i2 in
-            (match ConstantMap.find rvar1 constants, ConstantMap.find rvar2 constants with
-            | Some (Sil.Cstr s1), Some (Sil.Cstr s2) ->
-              begin
-                let s = s1 ^ s2 in
-                let u =
-                  if String.length s < string_widening_limit then
-                    Some (Sil.Cstr s)
-                  else
-                    None in
-                update lvar u constants
-              end
-            | _ -> constants)
-
-        | _ -> constants
-      with Not_found -> constants in
+    let equal m n = ConstantMap.equal (opt_equal Sil.const_equal) m n
+
+    let join = ConstantMap.merge merge_values
+
+    let proc_throws pn = Dataflow.DontKnow
+
+    let do_node node constants =
+
+      let do_instr constants instr =
+        try
+          let update key value constants =
+            ConstantMap.merge
+              merge_values
+              constants
+              (ConstantMap.add key value ConstantMap.empty) in
+
+          match instr with
+          | Sil.Letderef (i, Sil.Lvar p, _, _) ->        (* tmp = var *)
+              update (Sil.Var i) (ConstantMap.find (Sil.Lvar p) constants) constants
+
+          | Sil.Set (Sil.Lvar p, _, Sil.Const c, _) ->   (* var = const *)
+              update (Sil.Lvar p) (Some c) constants
+
+          | Sil.Set (Sil.Lvar p, _, Sil.Var i, _) ->     (* var = tmp *)
+              update (Sil.Lvar p) (ConstantMap.find (Sil.Var i) constants) constants
+
+          (* Handle propagation of string with StringBuilder. Does not handle null case *)
+          | Sil.Call (_, Sil.Const (Sil.Cfun pn), (Sil.Var sb, _):: [], _, _)
+          when Procname.java_get_class pn = "java.lang.StringBuilder"
+          && Procname.java_get_method pn = "<init>" ->  (* StringBuilder.<init> *)
+              update (Sil.Var sb) (Some (Sil.Cstr "")) constants
+
+          | Sil.Call (i:: [], Sil.Const (Sil.Cfun pn), (Sil.Var i1, _):: [], _, _)
+          when Procname.java_get_class pn = "java.lang.StringBuilder"
+          && Procname.java_get_method pn = "toString" -> (* StringBuilder.toString *)
+              update (Sil.Var i) (ConstantMap.find (Sil.Var i1) constants) constants
+
+          | Sil.Call (i:: [], Sil.Const (Sil.Cfun pn), (Sil.Var i1, _):: (Sil.Var i2, _):: [], _, _)
+          when Procname.java_get_class pn = "java.lang.StringBuilder"
+          && Procname.java_get_method pn = "append" -> (* StringBuilder.append *)
+              (match
+                ConstantMap.find (Sil.Var i1) constants,
+                ConstantMap.find (Sil.Var i2) constants with
+                | Some (Sil.Cstr s1), Some (Sil.Cstr s2) ->
+                    begin
+                      let s = s1 ^ s2 in
+                      let u =
+                        if String.length s < string_widening_limit then
+                          Some (Sil.Cstr s)
+                        else
+                          None in
+                      update (Sil.Var i) u constants
+                    end
+                | _ -> constants)
+
+          | _ -> constants
+        with Not_found -> constants in

      if verbose then
        begin
@ -119,7 +111,7 @@ module ConstantFlow = Dataflow.MakeDF(struct
          (Cfg.Node.get_instrs node) in
      if verbose then L.stdout "%a\n@." pp constants;
      [constants], [constants]
-end)
+  end)

 let run proc_desc =
  let transitions = ConstantFlow.run proc_desc ConstantMap.empty in
@ -128,3 +120,15 @@ let run proc_desc =
    | ConstantFlow.Transition (_, post_states, _) -> ConstantFlow.join post_states ConstantMap.empty
    | ConstantFlow.Dead_state -> ConstantMap.empty in
  get_constants
+
+type const_map = Cfg.Node.t -> Sil.exp -> Sil.const option
+
+(** Build a const map lazily. *)
+let build_const_map pdesc =
+  let const_map = lazy (run pdesc) in
+  let f node exp =
+    try
+      let map = (Lazy.force const_map) node in
+      ConstantMap.find exp map
+    with Not_found -> None in
+  f
--- a/infer/src/checkers/constantPropagation.mli
+++ b/infer/src/checkers/constantPropagation.mli
@ -2,8 +2,7 @@
 * Copyright (c) 2014 - Facebook. All rights reserved.
 *)

-module ConstantMap: Map.S with type key = string
+type const_map = Cfg.Node.t -> Sil.exp -> Sil.const option

-module ConstantFlow: Dataflow.DF with type state = (Sil.const option) ConstantMap.t
-
-val run: Cfg.Procdesc.t -> (Cfg.Node.t -> ConstantFlow.state)
+(** Build a const map lazily. *)
+val build_const_map : Cfg.Procdesc.t -> const_map
--- a/infer/src/checkers/sqlChecker.ml
+++ b/infer/src/checkers/sqlChecker.ml
@ -3,7 +3,6 @@
 *)

 open Utils
-open ConstantPropagation

 module L = Logging

@ -23,36 +22,31 @@ let callback_sql all_procs get_proc_desc idenv tenv proc_name proc_desc =
    list_map Str.regexp_case_fold _sql_start in

  (* Check for SQL string concatenations *)
-  let do_instr get_constants node = function
+  let do_instr const_map node = function
    | Sil.Call (_, Sil.Const (Sil.Cfun pn), (Sil.Var i1, _):: (Sil.Var i2, _):: [], l, _)
    when Procname.java_get_class pn = "java.lang.StringBuilder"
    && Procname.java_get_method pn = "append" ->
-        let rvar1 = Ident.to_string i1 in
-        let rvar2 = Ident.to_string i2 in
+        let rvar1 = Sil.Var i1 in
+        let rvar2 = Sil.Var i2 in
        begin
          let matches s r = Str.string_match r s 0 in
-          let constants = get_constants node in
-          if ConstantMap.mem rvar1 constants
-          && ConstantMap.mem rvar2 constants then
-            begin
-              match ConstantMap.find rvar1 constants, ConstantMap.find rvar2 constants with
-              | Some (Sil.Cstr ""), Some (Sil.Cstr s2) ->
-                  if list_exists (matches s2) sql_start then
-                    begin
-                      L.stdout
-                        "%s%s@."
-                        "Possible SQL query using string concatenation. "
-                        "Please consider using a prepared statement instead.";
-                      let linereader = Printer.LineReader.create () in
-                      L.stdout "%a@." (Checkers.PP.pp_loc_range linereader 2 2) l
-                    end
-              | _ -> ()
-            end
+          match const_map node rvar1, const_map node rvar2 with
+          | Some (Sil.Cstr ""), Some (Sil.Cstr s2) ->
+              if list_exists (matches s2) sql_start then
+                begin
+                  L.stdout
+                    "%s%s@."
+                    "Possible SQL query using string concatenation. "
+                    "Please consider using a prepared statement instead.";
+                  let linereader = Printer.LineReader.create () in
+                  L.stdout "%a@." (Checkers.PP.pp_loc_range linereader 2 2) l
+                end
+          | _ -> ()
        end
    | _ -> () in

  try
-    let get_constants = ConstantPropagation.run proc_desc in
+    let const_map = ConstantPropagation.build_const_map proc_desc in
    if verbose then L.stdout "Analyzing %a...\n@." Procname.pp proc_name;
-    Cfg.Procdesc.iter_instrs (do_instr get_constants) proc_desc
+    Cfg.Procdesc.iter_instrs (do_instr const_map) proc_desc
  with _ -> ()